High-Performance Thermoelectric Bulk Colusite by Process Controlled Structural Disordering

Cédric Bourgès; Yohan Bouyrie; Andrew R. Supka; Rabih Al Rahal Al Orabi; Pierric Lemoine; Oleg I. Lebedev; Michihiro Ohta; Koichiro Suekuni; Vivian Nassif; Vincent Hardy; Ramzy Daou; Yuzuru Miyazaki; Marco Fornari; Emmanuel Guilmeau

doi:10.1021/jacs.7b11224

High-Performance Thermoelectric Bulk Colusite by Process Controlled Structural Disordering

Cédric Bourgès, Yohan Bouyrie, Andrew R. Supka, Rabih Al Rahal Al Orabi, Pierric Lemoine, Oleg I. Lebedev, Michihiro Ohta, Koichiro Suekuni, Vivian Nassif, Vincent Hardy, Ramzy Daou, Yuzuru Miyazaki, Marco Fornari, Emmanuel Guilmeau

ENG - Applied Physics

Research output: Contribution to journal › Article › peer-review

88 Citations (Scopus)

Abstract

High-performance thermoelectric bulk sulfide with the colusite structure is achieved by controlling the densification process and forming short-to-medium range structural defects. A simple and powerful way to adjust carrier concentration combined with enhanced phonon scattering through point defects and disordered regions is described. By combining experiments with band structure and phonons calculations, we elucidate, for the first time, the underlying mechanism at the origin of intrinsically low thermal conductivity in colusite samples as well as the effect of S vacancies and antisite defects on the carrier concentration. Our approach provides a controlled and scalable method to engineer high power factors and remarkable figures of merit near the unity in complex bulk sulfide such as Cu₂₆V₂Sn₆S₃₂ colusites.

Original language	English
Pages (from-to)	2186-2195
Number of pages	10
Journal	Journal of the American Chemical Society
Volume	140
Issue number	6
DOIs	https://doi.org/10.1021/jacs.7b11224
Publication status	Published - 2018 Feb 14

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10.1021/jacs.7b11224

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Bourgès, C., Bouyrie, Y., Supka, A. R., Al Rahal Al Orabi, R., Lemoine, P., Lebedev, O. I., Ohta, M., Suekuni, K., Nassif, V., Hardy, V., Daou, R., Miyazaki, Y., Fornari, M., & Guilmeau, E. (2018). High-Performance Thermoelectric Bulk Colusite by Process Controlled Structural Disordering. Journal of the American Chemical Society, 140(6), 2186-2195. https://doi.org/10.1021/jacs.7b11224

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title = "High-Performance Thermoelectric Bulk Colusite by Process Controlled Structural Disordering",

abstract = "High-performance thermoelectric bulk sulfide with the colusite structure is achieved by controlling the densification process and forming short-to-medium range structural defects. A simple and powerful way to adjust carrier concentration combined with enhanced phonon scattering through point defects and disordered regions is described. By combining experiments with band structure and phonons calculations, we elucidate, for the first time, the underlying mechanism at the origin of intrinsically low thermal conductivity in colusite samples as well as the effect of S vacancies and antisite defects on the carrier concentration. Our approach provides a controlled and scalable method to engineer high power factors and remarkable figures of merit near the unity in complex bulk sulfide such as Cu26V2Sn6S32 colusites.",

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Bourgès, C, Bouyrie, Y, Supka, AR, Al Rahal Al Orabi, R, Lemoine, P, Lebedev, OI, Ohta, M, Suekuni, K, Nassif, V, Hardy, V, Daou, R, Miyazaki, Y, Fornari, M & Guilmeau, E 2018, 'High-Performance Thermoelectric Bulk Colusite by Process Controlled Structural Disordering', Journal of the American Chemical Society, vol. 140, no. 6, pp. 2186-2195. https://doi.org/10.1021/jacs.7b11224

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AU - Bourgès, Cédric

AU - Bouyrie, Yohan

AU - Supka, Andrew R.

AU - Al Rahal Al Orabi, Rabih

AU - Lemoine, Pierric

AU - Lebedev, Oleg I.

AU - Ohta, Michihiro

AU - Suekuni, Koichiro

AU - Nassif, Vivian

AU - Hardy, Vincent

AU - Daou, Ramzy

AU - Miyazaki, Yuzuru

AU - Fornari, Marco

AU - Guilmeau, Emmanuel

PY - 2018/2/14

Y1 - 2018/2/14

N2 - High-performance thermoelectric bulk sulfide with the colusite structure is achieved by controlling the densification process and forming short-to-medium range structural defects. A simple and powerful way to adjust carrier concentration combined with enhanced phonon scattering through point defects and disordered regions is described. By combining experiments with band structure and phonons calculations, we elucidate, for the first time, the underlying mechanism at the origin of intrinsically low thermal conductivity in colusite samples as well as the effect of S vacancies and antisite defects on the carrier concentration. Our approach provides a controlled and scalable method to engineer high power factors and remarkable figures of merit near the unity in complex bulk sulfide such as Cu26V2Sn6S32 colusites.

AB - High-performance thermoelectric bulk sulfide with the colusite structure is achieved by controlling the densification process and forming short-to-medium range structural defects. A simple and powerful way to adjust carrier concentration combined with enhanced phonon scattering through point defects and disordered regions is described. By combining experiments with band structure and phonons calculations, we elucidate, for the first time, the underlying mechanism at the origin of intrinsically low thermal conductivity in colusite samples as well as the effect of S vacancies and antisite defects on the carrier concentration. Our approach provides a controlled and scalable method to engineer high power factors and remarkable figures of merit near the unity in complex bulk sulfide such as Cu26V2Sn6S32 colusites.

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High-Performance Thermoelectric Bulk Colusite by Process Controlled Structural Disordering

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